Scope of EPC Services
Wind power plant projects are executed on a full EPC basis, covering all development phases:
- Engineering & Site Studies
- Wind resource assessment and long-term wind data analysis
- Site selection and micro-siting optimization
- Topographical, geotechnical, and climatic studies
- Electrical and grid interconnection studies
- Procurement
- Selection and supply of suitable wind turbines
- Towers, foundations, electrical equipment, and control systems
- Balance of plant (BoP) equipment
- Compliance with international technical and safety standards
- Construction & Installation
- Civil works and foundation construction
- Turbine erection and mechanical installation
- Electrical systems, cabling, and substation works
- Grid connection and protection systems
- Commissioning & Handover
- System testing and performance validation
- Grid synchronization and operational commissioning
- Documentation, training, and final handover
Project Applications
- Utility-Scale Wind Farms
Suitable for national grids, industrial zones, and large-scale power generation. - Industrial and Distributed Wind Systems
Designed for industrial facilities and remote locations requiring reliable renewable power.
Benefits of the Project
- Sustainable and Clean Energy Production
Zero fuel cost and minimal environmental impact. - Enhanced Energy Security
Reduced exposure to fuel supply disruptions and price volatility. - High Capacity Factor in Suitable Regions
Optimal energy yield in coastal, mountainous, and high-wind areas. - Long-Term Cost Stability
Predictable operational costs over the plant’s lifetime.
Grid Support and Hybrid Integration
Can be combined with solar power, energy storage, and green hydrogen systems to form hybrid energy infrastructures.
Technologies Applied
- High-efficiency wind turbines
- Advanced control and monitoring systems
- Grid integration and protection technologies
- EPC project management and quality assurance systems
Strategic Value
Wind EPC projects form a key pillar of renewable energy development and provide a strong foundation for hybrid energy systems, including wind-to-hydrogen (Power-to-Hydrogen) solutions and large-scale energy storage, supporting long-term decarbonization and energy resilience.
